CN212622984U - Battery performance detection equipment - Google Patents

Abstract

The utility model aims at providing a simple structure, easy and simple to handle and can improve detection efficiency's battery performance check out test set greatly. The utility model discloses a battery detector and battery anchor clamps, battery anchor clamps include bottom plate, battery carrier and two probe fixing base, two the equal sliding fit of probe fixing base is in on the bottom plate, the battery carrier sets up two between the probe fixing base, be provided with a plurality of battery profiling groove and a plurality of switch on the battery carrier, two all be provided with a plurality of test probe on the probe fixing base, test probe contacts with the electrode of battery, test probe passes through the switch with battery detector signal of telecommunication connects. The utility model discloses be applied to battery performance detection area.

Description

Battery performance detection equipment

Technical Field

The utility model discloses be applied to battery performance detection area, in particular to battery performance check out test set.

Background

When information exchange and communication of the internet are carried out by using the internet of things terminal equipment, due to the limitation of some application environment conditions, part of the internet of things terminals cannot be connected with a circuit or cannot be reliably charged in modes of solar energy and the like, and at the moment, a lithium sub-battery with high capacity density needs to be installed for continuous power supply. However, due to the passivation characteristic of the lithium sub-battery, the current and voltage can not meet the requirements at a high probability during communication, and therefore, the performance of the lithium sub-battery needs to be detected during the production process of the lithium sub-battery.

In traditional performance detection equipment, a battery detector is generally connected with a test line to connect an electrode of a lithium sub-battery, so that the performance of the lithium sub-battery is tested, but one test line can only be connected with one battery, and each battery needs to be repeatedly disassembled and assembled when being detected, so that the detection is complex, and the detection efficiency is low for manufacturers with large production scale. If a battery performance detection device which is simple in structure, simple and convenient to operate and capable of greatly improving detection efficiency can be designed, the problems can be well solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide a simple structure, easy and simple to handle and can improve detection efficiency's battery performance check out test set greatly.

The utility model adopts the technical proposal that: the utility model discloses a battery detector and battery anchor clamps, battery anchor clamps include bottom plate, battery carrier and two probe fixing base, two the equal sliding fit of probe fixing base is in on the bottom plate, the battery carrier sets up two between the probe fixing base, be provided with a plurality of battery profiling groove and a plurality of switch on the battery carrier, two all be provided with a plurality of test probe on the probe fixing base, test probe contacts with the electrode of battery, test probe passes through the switch with battery detector signal of telecommunication connects.

According to the scheme, the number of the battery profiling grooves, the number of the switches and the number of the test probes can be multiple and equal in number. The battery is placed in the battery contour groove, then the two probe fixing seats are pushed to slide until the test probes on the two sides are respectively contacted with the positive electrode and the negative electrode of the battery, and the test probes are in electrical signal connection with the battery detector through the switch, so that the performance of one battery can be detected by pressing one switch, the operation is simple and convenient, the repeated disassembly and assembly of the battery are avoided, the detection efficiency of the battery is greatly improved, and the large-scale production of the battery is facilitated. The battery detector is used for detecting the open-circuit voltage so as to judge the leakage current level of the capacitor, and the phenomenon that the service life is influenced by the large leakage current when the capacitor is put into use is avoided.

Further, the battery carrier is fixed on the bottom plate through a plurality of screws. It is thus clear that the battery carrier passes through a plurality of screw fixation on the bottom plate, because the battery needs the adaptation in the profile modeling groove of battery carrier, consequently when the battery specification that detects is different, only need the dismouting screw change another kind of specification battery carrier can, improved widely the utility model discloses a compatibility.

Further, the probe fixing seat is in sliding fit with the bottom plate through a sliding assembly, the sliding assembly comprises an air cylinder and two sliding rails which are arranged on the bottom plate, the air cylinder is in transmission connection with the probe fixing seat, and the probe fixing seat is in sliding fit with the two sliding rails. Therefore, when the positive and negative poles of the battery are needed to be connected, the cylinder drives the probe fixing seat to be in sliding fit on the sliding rail, the positive and negative poles of the battery are contacted with the probe until the probe, the probe fixing seat is not needed to be manually pushed, and the degree of automation is improved.

Further, the number of the battery profiling grooves and the number of the switches are 5, and the number of the test probes is 5.

Drawings

Fig. 1 is a schematic top view of the present invention.

Detailed Description

As shown in fig. 1, in this embodiment, the utility model discloses a battery detector 1 and battery anchor clamps, battery anchor clamps include bottom plate 2, battery carrier 3 and two probe fixing base 4, two equal sliding fit of probe fixing base 4 is in on the bottom plate 2, battery carrier 3 sets up two between the probe fixing base 4, be provided with five battery contour grooves 5 and five switches 6 on the battery carrier 3, two all be provided with five test probe 7 on the probe fixing base 4, test probe 7 contacts with the electrode of lithium inferior battery, test probe 7 passes through switch 6 with battery detector 1 electricity signal connection.

In the present embodiment, the battery carrier 3 is fixed on the base plate 2 by a plurality of screws 8.

In this embodiment, probe fixing base 4 is in through sliding assembly sliding fit on bottom plate 2, sliding assembly is including all setting up cylinder 9 and two slide rails 10 on bottom plate 2, cylinder 9 with probe fixing base 4 transmission is connected, probe fixing base 4 sliding fit is two on slide rail 10.

In this embodiment, the working principle of the present invention is as follows:

five lithium subcells are respectively placed in the five battery contour grooves 5, the two cylinders 9 respectively drive the two probe fixing seats 4 to be in sliding fit on the sliding rails 10 until the test probes 7 on the two sides are respectively contacted with the positive and negative electrodes of the batteries, and because the test probes 7 are in electrical signal connection with the battery detector 1 through the switch 6, the performance of one battery can be detected by pressing one switch 6 every time, the operation is simple and convenient, the repeated disassembly and assembly of the batteries are avoided, the detection efficiency of the batteries is greatly improved, and the large-scale production of the batteries is facilitated. The battery detector is used for detecting the open-circuit voltage so as to judge the leakage current level of the capacitor, and the phenomenon that the service life is influenced by the large leakage current when the capacitor is put into use is avoided.

Claims (4)

1. A battery performance detection apparatus characterized in that: it includes battery detection appearance (1) and battery anchor clamps, battery anchor clamps include bottom plate (2), battery carrier (3) and two probe fixing base (4), two equal sliding fit in probe fixing base (4) is in on bottom plate (2), battery carrier (3) set up two between probe fixing base (4), be provided with a plurality of battery profiling groove (5) and a plurality of switch (6), two on battery carrier (3) all be provided with a plurality of test probe (7) on probe fixing base (4), test probe (7) contact with the electrode of battery, test probe (7) pass through switch (6) with battery detection appearance (1) signal of telecommunication is connected.

2. The battery performance detection apparatus according to claim 1, characterized in that: the battery carrier (3) is fixed on the bottom plate (2) through a plurality of screws (8).

3. The battery performance detection apparatus according to claim 2, characterized in that: probe fixing base (4) are in through sliding assembly sliding fit on bottom plate (2), sliding assembly is including all setting up cylinder (9) and two slide rails (10) on bottom plate (2), cylinder (9) with probe fixing base (4) transmission is connected, probe fixing base (4) sliding fit is two on slide rail (10).

4. The battery performance detection apparatus according to claim 1, characterized in that: the number of the battery profiling grooves (5) and the number of the switches (6) are respectively provided with 5, and the number of the test probes (7) is provided with 5.

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